KR100292186B1 - Mortar composition with cracking resistance and/or self leveling ability - Google Patents

Abstract

PURPOSE: A cement mortar composition is provided, which is improved in the crack resistance and the self leveling ability by adding gypsum and kaolin to cement and sand. CONSTITUTION: The cement mortar composition comprises 100 parts by weight of cement; 10-40 parts by weight of gypsum; 10-40 parts by weight of kaolin; 60-100 parts by weight of aggregates with the controlled particle size; 3-5 parts by weight of a highly efficient water reducer; and a small quantity of a coagulation accelerator.

Description

[Title of the Invention]

Mortar compositions having crack resistance and / or automatic leveling

DETAILED DESCRIPTION OF THE INVENTION [

[Object of the invention]

[TECHNICAL FIELD OF THE INVENTION AND RELATED ART OF THE SAME]

The present invention relates to a mortar, and more particularly to a mortar composition having crack prevention and / or self leveling. That is, the present invention relates to a ceramic magnetic self-leveling mortar composition which prevents cracking of floor mortar by adding gypsum such as anhydrous gypsum and kaolin activated at high temperature to cement and sand, and also provides an automatic horizontal function.

Ondol is indispensable in Korean houses, which are traditionally left-sitting, and the hot-water ondol floor, which is currently being installed, is constructed by laying gravel on the bottom of the hot water board, pouring foamed concrete, applying cement mortar on the floor, . However, the cement mortar used in the above-mentioned ondol construction often cracks due to drying shrinkage, plastic shrinkage of the material itself, shrinkage and expansion of the material due to heating, and as a result, And there is a problem that heat storage performance is deteriorated. In addition, conventional cement mortar has a tendency to increase cement yield, bleeding, and strength because it increases the unit water quantity to obtain workability required for the work. By using this, the height difference Level difference) occurs and it is difficult to obtain a flat and precise finished surface.

In order to compensate for the disadvantages of such conventional flooring, a method for producing a mortar mixed with a specific metal powder such as aluminum powder or copper powder is disclosed in Korean Patent Publication Nos. 86-3174 and 85-1252 . These methods have the problem that they are intended to reduce the crack due to the expansion of the metal component, but can not be perfect in crack control due to the heterogeneity of the excessive expansion and expansion. Also, a preliminary mixed cement-based self-leveling floor composition in which various admixtures and the like are mixed in advance in a mixture of cement, gypsum and fly ash is disclosed in Korean Patent Publication Nos. 94-8510, 57-92558 and 60-19046 It is published in the post. However, these techniques fail to adequately control the cracks due to insufficient gypsum reaction, and they cause problems such as bleeding and increase in latency due to the hardening delay of fly ash, and delays in subsequent processes.

[Technical Problem]

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems of the conventional art, and it is an object of the present invention to provide a cement mortar composition excellent in crack resistance, It is a second object of the present invention to provide a cement mortar composition which is capable of obtaining a horizontal floor surface simply without using a cement mortar composition.

[Structure and operation of the invention]

SUMMARY OF THE INVENTION [

In order to accomplish the above object, the present invention provides a cement composition comprising 100 parts by weight of cement, 10 to 40 parts by weight of gypsum, 10 to 40 parts by weight of kaolin, By weight of an aggregate containing 0.15% by weight or less of particles in an amount of 10% by weight or less, 60 to 100 parts by weight of an aggregate containing 0.15 mm particles by weight or less, and 3 to 5 parts by weight of a high performance water reducing agent and a small amount of a coagulation promoter .

In the cement mortar composition of the present invention, it is preferable that the above-mentioned cement is selected from the group consisting of Portland cement, blast furnace cement, silica cement, fly ash cement, crude steel cement, hardened steel cement, expanded cement and alumina cement And the gypsum is preferably selected from the group consisting of anhydrous gypsum, anthracite and semi-gypsum, and the kaolin is preferably selected from the group consisting of active kaolin, general kaolin and kaolin, It is preferable that one aggregate is selected from the group consisting of washing yarn and fine yarn, lecturer, silica sand and slag. The above-mentioned high-performance water reducing agent is preferably selected from the group consisting of a lignin-based, an organic acid-based, a naphthalene-based, a melamine-based, a tethered-based condensate and a nonionic surface active agent. And it is preferably selected from the group consisting of its salt, alum, acid salt, base, basic slurry, silicate gel. Examples of the sulfate include the group consisting of K ₂ SO ₄ , Na ₂ So ₄ , (CH ₄ ) ₂ SO ₄ , CaSO ₄ .1 / 2H ₂ O, MgSO ₄ , C ₄ SO ₄ , ZnSO ₄ , FeSO ₄ NaHSO ₄ or KHSO ₄ can be used as the acid salt and the base can be selected from the group consisting of CaO, Ca (OH) ₂ , MgO and Mg (OH) ₂ .

The cement mortar composition of the present invention may further comprise a pigment.

When other materials are added to the cement mortar composition of the present invention, for example, a secondary processed product such as a color flooring material mixed with a pigment and a grouting agent for grouting can be produced.

The cement mortar composition of the present invention is prepared by using as a main component aggregate, gypsum, kaolin powder and cement whose particle size is adjusted, and adding an admixture thereto.

Hereinafter, the present invention will be described in more detail on the basis of examples. However, the following embodiments are merely preferred embodiments of the present invention in order to facilitate understanding of the present invention, and the present invention is not limited to the following embodiments.

[Representative Embodiment]

[Composition of cement mortar composition]

The composition of the cement mortar composition as one embodiment of the present invention is as follows.

cement- ; Domestic commercial cement (usually Portland cement)

Gypsum; Domestic Commercial Type II anhydrous gypsum (CaSO ₄ )

Kaolin; Gyeongnam mountain clearing kaolin

sand ; Particle modulated sand

Admixture; Domestic commercial condensation accelerators, high performance water reducing agents

The mortar composition according to the present invention can prevent cracking and have a self-leveling property by the following mechanism.

The mortar of the present invention uses a kind of chemical prestress which prevents cracking by using expandability in order to prevent cracks generated in conventional mortar. First, Et ring gayiteu by the reaction scheme below _{(ettringgite: 3CaO · Al 2 O} 3 · 3CaSO 4 · 32H 2 O) is generated and has a mechanism such that the expansion Eight ring gayiteu is causing a volume expansion.

CaO · Al ₂ O ₃ +3 (CaSO ₄ · 2H ₂ O) + Ca (OH) ₂ + 2H ₂ O

→ 3CaO · Al ₂ O ₃ · 3CaSO ₄ · 32H ₂ O

The present inventors have found that such conventional mortar compositions have the disadvantage that due to the quantitative shortage of CaO · Al ₂ O _{3 in} the cement, the above-mentioned reaction And that there is a limit to Thus the present invention was used as the kaolin to provide sufficient Al ₂ O _3, the Al ₂ O ₃ in the china clay is fed as a raw material in the production of ettringite was much producing ettringite prevents cracks to compensate for shrinkage . Secondly, in the present invention, by mixing cement, gypsum and kaolin at appropriate particle sizes, the proper particle is filled tightly in the gap of the aggregate, and the effect of dispersing the cement paste existing in the aggregate gap becomes high, The internal defects are reduced and the shrinkage is prevented by the high-density filling effect. Third, the siliceous effect of the silica component in kaolin caused pozzolanic reaction to tighten voids, that is, by changing the Ca (OH) ₂ produced by the hydration reaction to CHS by the substance having pozzolanic activity to realize dense mortar Thereby eliminating the possibility of shrinkage and contributing to prevention of shrinkage cracking.

Meanwhile, the cement mortar composition of the present invention has automatic leveling, and the mechanism thereof is as follows. First, the fluidity is enhanced by the surfactant action of the high performance water reducing agent which is an additive in the composition of the present invention. High performance water reducing agent is a surfactant which is easy to gather at the interface of two materials, has a slightly elongated shape, has a hydrophilic group and a hydrophobic group, and gives (+) or (- Repulsion is used to change the interface properties by reducing the interfacial tension between the two materials. In mortar, cement particles, aggregate particles and water interface, or the air and water interface in the mortar are collected to improve the contact between the particles and water, or disperse the particles well in water to prevent aggregation. Second, by controlling the particle size of cement, gypsum and kaolin, it is possible to realize the most compact filling of binder particles that can not be obtained when the appropriate particles having various particle size distributions are filled tightly in the gap of the aggregate, This is due to the finest filling effect that increases the fluidity of the mortar while reducing the molecular force of the matrix existing in the gap. When a certain particle size distribution is realized in the cement particles, the porosity is lowered and the amount of water bound to the void is reduced, so that the thickness of the actual water film is increased at a predetermined water cement ratio, thereby improving the fluidity. In general, when the amount of the fine particles in the cement is increased, the fluidity is lowered, and the effect is remarkably exhibited in the plastic viscosity, and the viscosity is rapidly increased. However, since the granular amount and the fine particle amount have a certain distribution, Thereby suppressing the rise. The increase of the assembly is due to the effect of decreasing the porosity at the time of filling the powder to improve the dispersion of the fine particles to suppress the increase of the plastic viscosity.

[Properties of each component of the cement mortar composition]

In one embodiment of the present invention, a material conforming to the standard specifications of each material is used, and its particle size and chemical composition are as follows.

Cement: Specified ordinary Portland cement Specific surface area 3000cm ² / g

Gypsum: Type II anhydrous gypsum A specific surface area of 7000 cm ² / g or so

Active kaolin: Specific surface area 2000cm ² / g or so

Sand: ① sand having a particle size of not less than 0.6 mm and not more than 10% and 0.15 mm of particles having a particle size of not more than 10%, or ② sand having a particle size of not less than 1.2 mm and not more than 10% A sand

Admixture: a small amount of naphthalene-based high condensate high-performance water reducing agent and gypsum condensation accelerator

[Formulation of cement mortar composition]

The mortar composition of Example 2 was formulated as follows.

10 to 40 parts by weight of type II anhydrous gypsum, 10 to 40 parts by weight of active kaolin, and 60 to 100 parts by weight of aggregate adjusted in particle size are mixed with 100 parts by weight of ordinary portland cement satisfying the provisions of KS L 5201 and JIS R 5210 3 to 5 parts by weight of a high-performance water reducing agent and a small amount of a condensation accelerator are added to the four-component phase composition to prepare a crack-resistant and self-leveling ceramic composition.

[Examples 1 to 3]

The cement mortar composition having the composition shown in the following Table 1 was prepared and the fluidity test, the length change, the compressive strength, the adhesive strength, the surface strength and the crack were measured by the following evaluation method. Respectively. The aggregates in Examples 1, 2, and 4 used the ① sand in the cement mortar composition, and the sand in ② was used in Example 3.

[Comparative Examples 1 and 2]

The cement mortar composition having the composition shown in the following Table 1 was prepared and the fluidity test, the length change, the compressive strength, the adhesive strength, the surface strength and the crack were measured by the following evaluation method. Respectively.

Each of the samples was subjected to an authorized method as follows. Each sample was preliminarily weighed, pre-mixed, and then water was bombarded at a low speed for 1 minute and at a high speed for 2 minutes. The curing room maintained a normal standard temperature of 20 ± 2 ° C and a humidity of 65 ± 6%. The evaluation method is as follows.

1) Flow test (flow experiment, according to JASS-15B-103)

A PVC tube with an inner diameter of 5 cm and a height of 5 cm is placed on the center of a 30 cm × 30 cm glass plate, and the manufactured sample is poured in. Gently lift the PVC tube and measure the diameter of the sample. Measure at 0, 20, 40, and 60 minutes after sample preparation.

2) Length change test (according to the method prescribed in JASS-A-1129)

After measuring the length of the 1st day of each month by using a ruler in a 4cm x 4cm x 16cm mold with a length change sensor, the length of 7 days, 14 days, 21 days, 28 days Change is measured.

3) Compressive strength (tested by the methods specified in 9.4, 9.5 and 9.6 of JIS-R-5201)

Pour the mortar into the mold (40 × 40 × 160mm), but inject it about 5mm higher than the mold. After standing in the wet curing room for more than 2 hours, the sample is cut out along the top surface of the mold. Thereafter, after curing for 48 hours in the wet curing chamber, the mold is demolded. After demoulding, cure for 28 days in curing room. After curing, measure the compressive strength in the tester.

4) Bond strength (tested by the method specified in 5.8.2 of JIS-A-6909)

Apply a sealer to the surface of the test substrate and dry in a standard curing chamber for 24 hours. A metal or synthetic resin mold having an inner standard of 40 x 40 x 10 mm is provided, and the material is injected. Cured in a wet curing room for up to 48 hours. After demoulding, curing room is cured up to 28 days in age.

5) Surface strength (experiment according to the method specified in 4.3.2 of JIS-A-5536)

Apply a sealer to the surface of the test substrate and dry in a standard curing chamber for 24 hours. A metal or synthetic resin mold having an inner standard of 40 x 40 x 10 mm is provided, and the material is injected. Cured in a wet curing room for up to 48 hours. After demoulding, the curing room is cured up to 14 days of age. Cut 40 x 40 mm on the surface of the specimen where curing has been completed to some extent. Adhered by the method specified in 4.3.2 of JIS-A-5536 and cured for 2 days.

6) Crack Experiment

An experiment was carried out to investigate the number of cracks generated after 14 days of curing by pouring into three molds having a width × height × length of 2.5 cm × 1 cm × 180 cm.

[Effects of the Invention]

As can be seen from the above Table 2, the four-component floor composition in which cement-gypsum-kaolin-aggregate is appropriately blended according to the present invention compensates shrinkage due to the generation of ettringite by the abundant Al ₂ O ₃ component in kaolin It is confirmed that the shrinkage cracks are reduced due to the reduction of the internal defects due to the control of the proper particle size between the four components, the smoothing effect, and the like, and the crack resistance is prevented.

The ceramic floor composition prepared by adding a high performance water reducing agent and a condensation accelerator to the four component floor composition of cement-gypsum-kaolin-aggregate has a problem that the unit amount of the floor composition required to obtain workability for construction and installation is reduced, And the shrinkage cracks, which are inherent problems inherent to the flooring mortar of the present invention, can be improved to obtain a high-quality finished surface, and the resulting reduction in defectiveness not only raises the satisfaction of the consumer, It is possible to obtain an ideal floor composition in which the fluidity is improved in the yield, thereby solving the problem of quality deterioration such as occurrence of crack due to an increase in the unit water quantity.

In addition, the composition according to the present invention solves the problem of poor workability due to the conventional pumping failure by securing enough fluidity to pour the flooring in the high-level portion, and solves the problem of poor workability in the conventional flooring. The ceramic floor composition is excellent in automatic leveling and can obtain a smooth finish surface without special finishing work. Therefore, it is possible to secure a good workability and to reduce the construction cost and cost due to the reduction in labor cost In addition, since the materials used for the floor composition include gypsum and kaolin, which are abundantly dispersed in Korea, in addition to the existing cement and aggregate, the national economy in terms of utilization of domestic resources The impacts of these factors are likely to be significant. It has considerable advantages.

The cement mortar composition of the present invention is a material that was invented to improve the quality of a building such as scientific and precision and has excellent physical properties such as fluidity, strength (compression, adhesion, adhesion), linear expansion coefficient and durability, It is possible to obtain a smooth horizontal surface by construction. Therefore, cement mortar composition of semi-invented cement mortar composition is improved not only in bottom flooring of residential buildings such as labor cost reduction and repair shortage of non-residential buildings such as shortening of air, It is a ceramic-based anti-cracking and automatic horizontal flooring composition which enables to obtain a horizontal floor easily without flatness and also to be able to reduce the construction cost and shorten the air by making it possible to continue the subsequent process with excellent strength.

In addition, all the materials used in the present invention can contribute to development of domestic industry and enhancement of international competitiveness by utilizing materials produced in the country.

Claims (9)

100 parts by weight of cement; 10 to 40 parts by weight of gypsum; 10 to 40 parts by weight of kaolin; 60 to 100 parts by weight of aggregate adjusted in particle size; 3 to 5 parts by weight of a high-performance water reducing agent and a small amount of a condensation promoting agent; Containing cement mortar composition. The cement mortar composition according to claim 1, wherein the cement is selected from the group consisting of Portland cement, blast furnace cement, silica cement, fly ash cement, crude steel cement, cold rolled cement, expanded cement and alumina cement. The cement mortar composition according to claim 1, wherein the gypsum is selected from the group consisting of anhydrous gypsum, anthraquinone, and semi-gypsum. The cement mortar composition according to claim 1, wherein said kaolin is selected from the group consisting of active kaolin, general kaolin and kaolin. The aggregate as set forth in claim 1, wherein the aggregate prepared by the above-mentioned sublimation has a particle of 0.6 mm or more in a weight ratio of 10% or less and containing 0.15 mm particles in a weight ratio of 10% or a particle of 1.2 mm or more in 10% Wherein the cement mortar composition has a particle size adjusted to be 10% or less. The mortar composition according to claim 1, wherein the aggregate is selected from the group consisting of washing yarn and fine yarn, liner, silica sand, slag. The cement mortar composition according to claim 1, wherein the high-performance water reducing agent is selected from the group consisting of lignin-based, organic acid-based, naphthalene-based, melamine-based, tactose-based condensation products and nonionic surface-active agents. The cement mortar composition according to claim 1, wherein the coagulation promoter is selected from the group consisting of neutral or slightly acidic sulfate and salts thereof, alum, acid salt, base, basic slag, silicate gel. The method of claim 8, wherein the sulfate is selected from the group consisting of K ₂ SO ₄ , Na ₂ So ₄ , (CH ₄ ) ₂ SO ₄ , CaSO ₄ .1 / 2H ₂ O, MgSO ₄ , C ₄ SO ₄ , ZnSO ₄ , FeSO ₄ Wherein said acid salt is NaHSO ₄ or KHSO ₄ and said base is selected from the group consisting of CaO, Ca (OH) ₂ , MgO, Mg (OH) ₂ .